The Anonymous Widower

Should All High Speed Long Distance Services To Newcastle Extend To Edinburgh?

Look at this Google Map of Newcastle station.

Note.

  1. It is built on a curve.
  2. It is on a cramped site.
  3. Platforms are numbered from 1 at the top to 8 at the bottom.
  4. Platform 2 seems to be used for all express services going North.
  5. Platforms 3 and 4 seem to be used for all express services going South.
  6. Not all platforms would appear to be long enough for nine-car Class 80x trains.

I am certain, that any nation with a sophisticated railway system wouldn’t build a station on a curve with no avoiding lines like Newcastle these days.

Network Rail have a plan to sort out Darlington station and I’m sure they’d like to sort out Newcastle as well!

Current Long Distance Trains Through And To Newcastle

These include.

  • CrossCountry – Plymouth and Edinburgh or Glasgow via Alnmouth, Berwick-upon-Tweed and Dunbar.
  • CrossCountry – Southampton Central or Reading and Newcastle.
  • LNER – King’s Cross and Edinburgh via Berwick-upon-Tweed
  • LNER – King’s Cross and Edinburgh via Alnmouth
  • TransPennine Express – Liverpool Lime Street and Edinburgh via Morpeth
  • TransPennine Express – Manchester Airport and Newcastle.

Note.

  1. All have a frequency of one train per hour (tph)
  2. All trains call at Newcastle.
  3. Two tph terminate at Newcastle and four tph terminate at Edinburgh or beyond.

There is also a new and Edinburgh service from East Coast Trains, that will start this year.

  • It will run five trains per day (tpd).
  • It will call at Newcastle.
  • It will stop at Morpeth between Newcastle and Edinburgh.

There will also be High Speed Two services to Newcastle in a few years.

  • There will be two tph between Euston and Newcastle
  • There will be one tph between Birmingham Curzon Street and Newcastle.

Note.

  1. All services will be run by 200 metre long High Speed Two Classic-Compatible trains.
  2. There is no High Speed Two service to Newcastle, that calls at Leeds.
  3. Only one High Speed Two service to Newcastle calls at East Midlands Hub.

I suspect High Speed Two services need a dedicated platform at Newcastle, especially, if another High Speed Two service were to be added.

Extra Paths For LNER

In the December 2020 Edition of Modern Railways, there is an article, which is entitled LNER Seeks 10 More Bi-Modes.

This is the last paragraph.

Infrastructure upgrades are due to prompt a timetable recast in May 2022 (delayed from December 2021), from which point LNER will operate 6.5 trains per hour out of King’s Cross, compared to five today. As an interim measure  LNER is retaining seven rakes of Mk. 4 coaches hauled by 12 Class 91 locomotives to supplement the Azuma fleet and support its timetable ambitions until new trains are delivered.

There would certainly appear to be a path available if LNER wanted to increase the frequency of trains between King’s Cross and Edinburgh from the current two trains per hour (tph) to three.

I laid out how I would use this third path to Edinburgh in A New Elizabethan.

The Possible Long Distance Trains Through And To Newcastle

These trains can be summed up as follows.

  • 1 tph – CrossCountry – Plymouth and Edinburgh or Glasgow via Alnmouth, Berwick-upon-Tweed and Dunbar.
  • 1 tph – CrossCountry – Southampton Central or Reading and Newcastle.
  • 1 tph – LNER – King’s Cross and Edinburgh via Berwick-upon-Tweed
  • 1 tph – LNER – King’s Cross and Edinburgh via Alnmouth
  • 1 tph – TransPennine Express – Liverpool Lime Street and Edinburgh via Morpeth
  • 1 tph – TransPennine Express – Manchester Airport and Newcastle.
  • 5 tpd – East Coast Trains – King’s Cross and Edinburgh via Morpeth
  • 2 tph – High Speed Two – Euston and Newcastle
  • 1 tph – High Speed Two – Birmingham Curzon Street and Newcastle
  • 1 tph – LNER – King’s Cross and Edinburgh – Extra service

This is ten tph and the five tpd of East Coast Trains.

Capacity Between Newcastle And Edinburgh

I wonder what capacity and linespeed would be possible on the East Coast Main Line between Newcastle and Edinburgh.

There are a few freight trains and some suburban electrics at the Northern end, but I suspect that the route could handle ten tph with some upgrades.

Edinburgh As A Terminal

Consider.

  • Not all trains terminate at Edinburgh, but several tpd go through to places like Aberdeen, Glasgow, Inverness and Stirling.
  • Edinburgh has several shorter East-facing bay platforms, that can take five-car Class 802 trains.
  • Edinburgh has undergone a lot of reconstruction in recent years, so that it can turn more trains.

I very much feel that Edinburgh could handle, at least ten tph from the South.

Conclusion

I think it would be possible to extend all trains to Newcastle to at least Edinburgh.

Would it increase passenger capacity between the two capitals?

It would certainly avoid the difficult and expensive rebuilding at Newcastle station.

 

 

 

May 30, 2021 Posted by | Transport | , , , , , , , , , , , , | 5 Comments

A New Elizabethan

I can remember The Elizabethan, which was a steam-hauled non-stop express between London and Edinburgh between 1953 and 1961.

  • The steam-hauled train took six-hours-and-a-half.
  • It used to be the longest non-stop railway service in the world.
  • Today, the service could be run by the current or refurbished Azumas or perhaps a new flagship train, built for the service.
  • It could be easily under four hours.

It could be an interesting concept, to increase capacity between London and Edinburgh.

The Fastest Rail Journey Between London King’s Cross And Edinburgh

This section in the Wikipedia entry for the Class 91 locomotive is entitled Speed Record. This is the first paragraph.

A Class 91, 91010 (now 91110), holds the British locomotive speed record at 161.7 mph (260.2 km/h), set on 17 September 1989, just south of Little Bytham on a test run down Stoke Bank with the DVT leading. Although Class 370s, Class 373s and Class 374s have run faster, all are EMUs which means that the Electra is officially the fastest locomotive in Britain. Another loco (91031, now 91131), hauling five Mk4s and a DVT on a test run, ran between London King’s Cross and Edinburgh Waverley in 3 hours, 29 minutes and 30 seconds on 26 September 1991. This is still the current record. The set covered the route in an average speed of 112.5 mph (181.1 km/h) and reached the full 140 mph (225 km/h) several times during the run.

Seconds under three-and-a-half-hours was an amazing time nearly thirty years ago, from a short-formation InterCity 225, that went on to become the mainstay of the services on the route.

It makes High Speed Two’s proposed time of three hours and forty-eight minutes appear to lack ambition.

But to be fair to High Speed Two, train services have historically been faster on the the East side of Great Britain.

What Time Could Be Possible Between London King’s Cross And Edinburgh?

In What Is Possible On The East Coast Main Line?, I took a hard look at times on the route, taking into account improvements of the last thirty years and those that will happen in the next few.

This was my conclusion.

I started by asking what is possible on The East Coast Main Line?

As the time of three-and-a-half hours was achieved by a short-formation InterCity 225 train in 1991 before Covids, Hitchin, Kings Cross Remodelling, Power Upgrades, Werrington and lots of other work, I believe that some journeys between Kings Cross and Edinburgh could be around this time within perhaps five years.

To some, that might seem an extraordinary claim, but when you consider that the InterCity 225 train in 1991 did it with only a few sections of 140 mph running, I very much think it is a certainly at some point.

As to the ultimate time, earlier I showed that an average of 120 mph between  King’s Cross and Edinburgh gives a time of 3:16 minutes.

Surely, an increase of fourteen minutes in thirty years is possible?

I believe that timings will decrease significantly on the East Coast Main Line with the current trains.

Extra Paths For LNER

In the December 2020 Edition of Modern Railways, there is an article, which is entitled LNER Seeks 10 More Bi-Modes.

This is the last paragraph.

Infrastructure upgrades are due to prompt a timetable recast in May 2022 (delayed from December 2021), from which point LNER will operate 6.5 trains per hour out of King’s Cross, compared to five today. As an interim measure  LNER is retaining seven rakes of Mk. 4 coaches hauled by 12 Class 91 locomotives to supplement the Azuma fleet and support its timetable ambitions until new trains are delivered.

There would certainly appear to be a path available if LNER wanted to increase the frequency of trains between London King’s Cross and Edinburgh from the current two trains per hour (tph) to three.

What Would Be The Route?

I feel there could be three possible simple routes.

  1. A direct non-stop London King’s Cross and Edinburgh service.
  2. A London King’s Cross and Edinburgh service with a single stop at Newcastle.
  3. A London King’s Cross and Edinburgh service with stops at Leeds and Newcastle.

Each route would have its own advantages and drawbacks.

Route 1

My thoughts about Route 1.

  • This would be the fastest route.
  • It would be a serious challenge to the airlines on the London and Edinburgh route.

It would be a marketing man’s dream.

Route 2

My thoughts about Route 2.

  • This would be the second fastest route.
  • It would be a serious challenge to the airlines on the London and Edinburgh route.
  • It would give Newcastle a third hourly service to the capital.
  • It would give Newcastle a non-stop train to London every hour.
  • It would probably be the fastest train between King’s Cross and Newcastle.
  • It would beef up the challenge to the airlines on the London and Newcastle route.

Serving Newcastle may generate extra passengers.

Route 3

My thoughts about Route 3.

  • This would be the slowest route as it is 23 miles longer.
  • It would be a challenge to the airlines on the London and Edinburgh route.
  • It would give Newcastle and Leeds a third hourly service to the capital.
  • It would give Leeds a non-stop train to London every hour.
  • It would probably be the fastest train between London and Leeds.
  • It would beef up the challenge to the airlines on the London and Newcastle and London and Leeds routes.
  • There could be an extra call at York

Serving Leeds and Newcastle may generate extra passengers.

Obviously, passenger numbers will determine the best route.

Conclusion

I very much feel that properly thought through, this service could be a success.

 

 

May 16, 2021 Posted by | Transport | , , , , , , | 4 Comments

Northern Powerhouse Rail – Significant Upgrades Of The East Coast Main Line From Leeds To Newcastle (Via York And Darlington) And Restoration Of The Leamside Line

In this article on Transport for the North, which is entitled Northern Powerhouse Rail Progress As Recommendations Made To Government, one of the recommendations proposed for Northern Powerhouse Rail is significant upgrades to the East Coast Main Line and reopening of the Leamside Line.

Northern Powerhouse Rail’s Objective For The Leeds and Newcastle Route

Wikipedia, other sources and my calculations say this about the trains between Leeds and Newcastle.

  • The distance between the two stations is 106 miles
  • The current service takes around 85 minutes and has a frequency of three trains per hour (tph)
  • This gives an average speed of 75 mph for the fastest journey.
  • The proposed service with Northern Powerhouse Rail will take 58 minutes and have a frequency of four tph.
  • This gives an average speed of 110 mph for the journey.

This last figure of 110 mph, indicates to me that a faster route will be needed.

These are example average speeds on the East Coast Main Line.

  • London Kings Cross and Doncaster – 156 miles – 98 minutes – 95.5 mph
  • London Kings Cross and Leeds – 186 miles – 133 minutes – 84 mph
  • London Kings Cross and York  – 188.5 miles – 140 minutes – 81 mph
  • London Kings Cross and Hull – 205.3 miles – 176 minutes – 70 mph
  • York and Newcastle – 80 miles – 66 minutes – 73 mph

I also predicted in Thoughts On Digital Signalling On The East Coast Main Line, that with full digital in-cab ERTMS signalling and other improvements, that both London Kings Cross and Leeds and York would be two-hour services, with Hull a two-and-a-half service.

  • London Kings Cross and Leeds in two hours would be an average speed of 93 mph.
  • London Kings Cross and York in two hours would be an average speed of 94.2 mph.
  • London Kings Cross and Hull in two-and-a-half hours would be an average speed of 94.2 mph.

I am fairly certain, that to achieve the required 110 mph average between Leeds and Newcastle to meet Northern Powerhouse Rail’s objective of four tph in under an hour will need, at least the following.

  • Full digital in-cab ERTMS signalling
  • Completion of the electrification between Leeds and York.
  • Ability to run at up to 140 mph in places.
  • Significant track upgrades.

It could also eliminate diesel traction on passenger services on the route.

High Speed Two’s Objective For The York and Newcastle Route

At the present time, High Speed Two is not planning to run any direct trains between Leeds and Newcastle, so I’ll look at its proposed service between York and Newcastle instead.

  • Current Service – 80 miles – 66 minutes – 73 mph
  • High Speed Two – 80 miles – 52 minutes – 92 mph

Note.

  1. High Speed Two will be running three tph between York and Newcastle.
  2. Northern Powerhouse Rail have an objective of 58 minutes for Leeds and Newcastle.

High Speed Two and Northern Powerhouse Rail do not not have incompatible ambitions.

Current Direct Leeds And Newcastle Services

These are the current direct Leeds and Newcastle services.

  • TransPennine Express – 1 tph – Liverpool Lime Street and Edinburgh
  • TransPennine Express – 1 tph – Manchester Airport and Newcastle.
  • CrossCountry – 1 tph – Plymouth and Edinburgh

Timings appear to be between 81 and 91 minutes.

What Would A Leeds And Newcastle In Under An Hour Do For London Kings Cross And Edinburgh Timings?

This question has to be asked, as a 58 minute time between Leeds and Newcastle will mean that timings between York and Newcastle must reduce.

York And Newcastle at various average speeds give the following times.

  • 73 mph (current average) – 66 minutes
  • 80 mph – 60 minutes
  • 90 mph – 53 minutes
  • 92 mph – 52 minutes (High Speed Two promise)
  • 100 mph – 48 minutes
  • 110 mph – 44 minutes

If any speed over 90 mph can be averaged between York and Newcastle, this means that with a London and York time of under two hours the following times are possible.

  • London Kings Cross and Newcastle in under three hours. – High Speed Two are promising two hours and seventeen minutes.
  • London Kings Cross and Edinburgh in under four hours. – High Speed Two are promising three hours and forty minutes.

Consider.

  • An InterCity 225 achieved a time of under three-and-a-half hours between London and Edinburgh. in 1991.
  • That record journey was at an average speed of 112 mph.
  • There must be opportunities for speed improvements North of Newcastle.
  • Train and signalling technology is improving.
  • High Speed Two is promising three hours and forty minutes between London and Edinburgh.

I can see a fascinating rivalry between trains on High Speed Two and the East Coast Main Line, developing, about who can be faster between London and Edinburgh.

Current Projects Between Leeds And Newcastle

These projects are in planning or under way on the section of the East Coast Main Line between Leeds and Newcastle.

Phase 2 Of The East Coast Main Line Power Supply Upgrade

Phase 1 between London and Doncaster should have been completed, if the covids allowed and now work can be concentrated on Phase 2 to the North of Doncaster.

This page on the Network Rail web site describes the project. These paragraphs are the introduction to Phase 2.

Phase 2 of the project will involve the installation of feeder and substations along the route, capacity upgrades, new 132kv connection at Hambleton junction and upgrades to existing power supply connections.

The second phase of the project is currently in design stages and dates for carrying out the work are still being finalised.

Phase 2 will be delivering upgraded power to the East Coast Mainline railway between Bawtry and Edinburgh.

This project may not improve speeds on the railway, but it will certainly improve reliability and reduce the use of diesel power.

I do wonder, that as the reliability of the East Coast Main Line increases, this will reduce the need for the electric Class 801 trains, to have diesel engines for when the power supply fails.

It is known, that the Class 803 trains, that are under construction for East Coast Trains, will have only a small battery for emergency use.

A sensible weight saving would surely improve the acceleration and deceleration of the trains.

York to Church Fenton Improvement Scheme

This page of the Network Rail web site, describes the project. These paragraphs introduce the project.

Our work between York and Church Fenton is in preparation for the Transpennine Upgrade, which will provide more capacity and faster journeys between Manchester Victoria and York, via Leeds and Huddersfield.

The five mile stretch between Church Fenton and Colton Junction – the major junction where trains from Leeds join the East Coast Main Line towards York – sees over 100 trains each day, with up to one freight or passenger train passing through every five minutes. This is one of the busiest stretches of railway in the North.

The work will include.

  • Modernising the signalling.
  • Replacing about five miles of track between Holgate (York) and Colton Junction.
  • Completing the eleven miles of electrification between York and Church Fenton stations.

I estimate that when the project is completed, there will be only around thirteen miles of track without electrification between Church Fenton station and Neville Hill TMD in Leeds.

The route between Church Fenton and Garforth stations, is shown in this map clipped from High Speed Two.

Note.

  1. York is just off the North-East corner of the map.
  2. Garforth is in the South-West corner of the map.
  3. Shown in orange is the new route of High Speed Two from East of Leeds towards York.
  4. Shown in blue is existing tracks, that will be used to take High Speed Two Trains to York and further North.
  5. The rail line running North-South on the edge of the map is the Selby Diversion, which opened in 1983 and  was built to avoid possible subsidence from the Selby coalfield.
  6. The pre-Selby Diversion route of the East Coast Main Line goes South from the join of the blue and orange sections of High Speed Two.
  7. At Church Fenton station, this route splits, with one route going West through Micklefield, East Garforth and Garforth stations to Neville Hill TMD and Leeds.
  8. The main road going North-South is the A1 (M).

It seems to me, that High Speed Two’s and Northern Powerhouse Rail’s plans in this area, are still being developed.

  • There has been no decision on the electrification between Church Fenton and Neville Hill TMD.
  • How do Northern Powerhouse Rail trains go between Leeds and Hull?
  • How do Northern Powerhouse Rail trains go between Leeds and York?
  • How do High Speed Two trains go between Leeds and York?

I suspect, when the full plans are published, it will answer a lot of questions.

Darlington Station Remodelling

A remodelling of Darlington station is under consideration.

I outlined this in £100m Station Revamp Could Double Local Train Services.

This was my conclusion in the related article.

I think that this will happen.

    • The Tees Valley Line trains will be greatly improved by this project.
    • Trains will generally run at up to 140 mph on the East Coast Main Line, under full digital control, like a slower High Speed Two.
    • There will be two high speed platforms to the East of the current station, where most if not all of the High Speed Two, LNER and other fast services will stop.
    • There could be up to 15 tph on the high speed lines.

With full step-free access between the high speed and the local platforms in the current station, this will be a great improvement.

It will create a major interchange, where high speed trains from High Speed Two, LNER and Northern Powerhouse Rail will do the following.

  • Approach at 140 mph or more.
  • Perform a controlled stop in the station.
  • Drop and pick-up passengers.
  • Accelerate back up to linespeed.

The station stop will be highly-automated and monitored by the driver.

One of the objectives would be to save time for all fast trains.

Capacity And Other Problems Between Leeds And Newcastle Listed In Wikipedia

These problems are listed in a section called Capacity Problems in the Wikipedia entry for the East Coast Main Line.

The North Throat Of York Station Including Skelton Bridge Junction

On the thirty mile stretch of the East Coast Main Line, between York and Northallerton stations, the route is mainly four tracks.

But three miles North of York there is Skelton Bridge over the River Ouse, which is shown in this Google Map.

Zooming closer, I clipped this second Google Map.

Note.

  1. There are actually two bridges over the River Ouse.
  2. The East bridge is a double-track bridge and is the original stone arch bridge.
  3. The West bridge was added later and I suspect has little architectural merit.
  4. The tracks on both sides of the bridge are extremely complicated.

If you look at the timings, trains seem to take one of two timings between York and Northallerton.

  • 17-18 minutes, which is almost an average speed of 100 mph.
  • 27 minutes, which is 67 mph.

Incidentally, one of Drax’s long biomass trains managed a time of 27 minutes.

Would going faster save any minutes?

  • A 110 mph average would give a time of 16.4 minutes
  • A 120 mph average would give a time of 15 minutes
  • A 125 mph average would give a time of 14.4 minutes
  • A 140 mph average would give a time of 12.9 minutes

On the face of it, it doesn’t appear that there are very large time savings, to be achieved.

On the other hand, if all trains can pass through Skelton Bridge and its complicated junction, without slowing, delays will be minimised and timetables can be faster.

But there is an anomaly in all the express trains that pass through York station. All stop, except those planned for East Coast Trains. In fact, their trains won’t stop between Stevenage and Newcastle.

The obvious solution to the Skelton Bridge problem, is to do what British Rail didn’t have the courage to do, when they electrified the East Coast Main Line in the 1980s. And that is to demolish the bridge and build a stylish modern four-track bridge!

It would eliminate many of the things, that could go wrong and would surely improve reliability. This could help to maintain a higher operating speed.

But would it be allowed by the Planning Authorities and English Heritage?

Hopefully, it doesn’t matter!

  • I am a Control Engineer and mathematical modeller, who has programmed some immensely complex systems in the last fifty-five years.
  • I have also flown light aircraft on instruments for many hours, where you control the plane according to what Air Traffic Controllers and the instruments tell you.

My experience tells me that, it would be possible to control a busy junction, like Skelton Bridge safely, by a well-programmed computer system helping the driver, arrive at the junction at the right time to go straight through.

I also believe that if modern in-cab digital ERTMS signalling can handle twenty-four tph on Thameslink going to and from scores of stations, then it can handle Skelton Bridge Junction.

In Could ERTMS And ETCS Solve The Newark Crossing Problem?, I proposed a similar solution to the problem at Newark.

Use Of The Leamside Line

Wikipedia says this about capacity to the South of Newcastle.

South of Newcastle to Northallerton (which is also predominately double track), leading to proposals to reopen the Leamside line to passenger and freight traffic.

I could have included it in the previous section, but as it such a important topic, it probably deserves its own section.

Looking at maps, reopening is more than a a possibility. Especially, as reopening is proposed by Northern Powerhouse Rail and mentioned in the title of this post.

I discussed the Leamside Line in detail in Boris Johnson Backs Station Opening Which Could See Metro Link To County Durham, which I wrote in June this year.

These are some extra thoughts, that update the original post.

Ferryhill Station

I was prompted to write the related post, by something Boris Johnson said at PMQs and it was mainly about Ferryhill station.

In the latest copy of this document on the Government web site, which is entitled Restoring Your Railway: Successful Bids, a new station at Ferryhill has been successful. Another bid in the same area to restore rail services between Consett and Newcastle has also been successful.

This map shows the East Coast Main Line as it goes North South between Durham and Darlington.

Note.

  1. Ferryhill is in the South-West of the map opposite the sand-pits in the South-East
  2. The East Coast Main Line runs North-South between the village an d the sand-pits.
  3. Follow the railway North and you come to Tursdale, where there is a junction between the East Coast Main Line and the Leamside Line.
  4. The East Coast Main Line goes North-Westerly towards Durham and Newcastle.
  5. The Leamside Line goes North to Washington and Newcastle.
  6. There is also the Stillington Freight Line going South-Easterly to Sedgefield and Stockton from Ferryhill.

Could Ferryhill be a useful interchange to local services connecting to Newcastle, Sunderland and Washington in the North and Hartlepool, Middlesbrough and Stockton in the South?

The Leamside Line As An East Coast Main Line Diversion

I didn’t discuss using the line as a diversion for the East Coast Main Line in my original post, but if the infrastructure is to the required standard, I don’t see why it can’t take diverted traffic, even if it is also used for the Tyne and Wear Metro.

It should be remembered, that to create extra capacity on the East Coast Main Line between Peterborough and Doncaster, the route of the Great Northern and Great Eastern Joint Railway, was upgraded. I first wrote about this line six years ago in Project Managers Having Fun In The East and the route seems to be working well. It is now being augmented by the addition of the £200 million Werrington Dive Under. See Werrington Dive-Under – 8th November 2018, for more details of this project, which will speed up all trains on the East Coast Main Line.

After the undoubted success of the upgrade  of the Great Northern and Great Eastern Joint Railway, surely the team responsible for it, should be given the task of devising a similar plan for the Leamside Line, to take pressure off the East Coast Main Line between Newcastle and Northallerton.

Sharing The Leamside Line

The Tyne and Wear Metro also has its eyes on the Leamside Line for an extension.

It should be noted that the Extension To Wearside, uses the Karlsruhe Model to allow the Metro trains to share with freight and other passenger trains.

The new Stadler trains will probably make this even easier, so I wouldn’t be surprised to see a reopened Leamside Line handling a varied assortment of trains of all types.

The Sunderland Example

Sunderland station is a station, which has both Metro and mainline services from the same platforms.

Could a station at Washington be built to similar principles, so that some long distance services to Newcastle used this station?

A Terminal Station On The Leamside Line

Newcastle station may be a Grade One Listed station, but it is built on a curve and would be a nightmare to expand with more platforms.

Sunderland station is already used as a terminal for London trains, so would it be sensible to provide a terminal at somewhere like Washington?

My Final Thought  On The Leamside Line

Reopen it!

A Few Random Final Thoughts

This post has got me thinking.

Newcastle Station Capacity

I have seen reports over the years that Newcastle station, is lacking in capacity.

  • There could be extra services, as High Speed Two is proposing two tph from London Euston stations and one tph from Birmingham Curzon Street station.
  • There may be extra services because of Northern Powerhouse Rail, which has an objective of four tph from Leeds station.
  • There may be extra services because of new services to Ashington and Blyth.
  • There may be extra services because of new services to Consett.

Note.

  1. The first two services could use two hundred metre long trains.
  2. Some platforms can accept 234 metre long Class 800 trains.
  3. The last two services might use the Metro platforms.

As the station has twelve platforms, I feel with careful operation, that the station will have enough capacity.

This Google Map shows the station.

And this second Google Map shows the station, its position with relation to the Tyne and the lines rail routes to and from the station.

Note.

  1. Trains from the South arrive over the King Edward VII Bridge and enter Newcastle station from the West.
  2. Trains from England to Scotland go through the station from West to East and then go straight on and turn North for Berwick and Scotland.
  3. Next to the King Edward VII Bridge is the blue-coloured Queen Elizabeth II Bridge, which takes the Tyne and Wear Metro across the Tyne, where it uses two platforms underneath Newcastle station.
  4. The next bridge is the High Level Bridge, which connects the East end of the station to the rail network, South of the Tyne. It connects to the Durham Coast Line to Teeside and the Leamside Line.

History has delivered Newcastle a comprehensive track layout through and around Newcastle station.

  • Services from the East can be run back-to-back with services from the West.
  • The Metro and its two underground platforms removes a lot of traffic from the main station.
  • There are seven through platforms, of which at least three are over two hundred metres long.
  • There are four West-facing bay platforms and one facing East.

But most intriguingly, it looks like it will be possible for trains to loop through the station from the South, by perhaps arriving over the King Edward VII bridge and leaving over the High Level bridge. Or they could go the other way.

Could this be why reoopening the Leamside Line is important?

LNER’s Extra Paths

The sentence, from an article entitled LNER Seeks 10 More Bi-Modes, in the December 2020 Edition of Modern Railways   indicates that more capacity will be available to LNER.

Infrastructure upgrades are due to prompt a timetable recast in May 2022 (delayed from December 2021) from which point LNER will operate 6.5 trains per hour, out of Kings Cross, compared to five today.

I suspect that LNER could use the half path to run a one train per two hour (tp2h) service to Hull.

  • Currently, London Kings Cross and Hull takes a few minutes under three hours.
  • Currently, Doncaster and Hull takes around 55 minutes.
  • I have estimated that once full digital in-cab signalling is operational, that London Kings Cross and Hull could take a few minutes under two-and-a-half hours.

The full path to Hull could be shared with Hull Trains to provide an hourly service between London Kings Cross and Hull.

LNER could do something special with the full extra path.

Consider.

  • Some train operating companies have said, that they’ll be looking to attract customers from the budget airlines.
  • There could be a need for more capacity between London Kings Cross and all of Edinburgh, Leeds and Newcastle.
  • Faster services would be attractive to passengers.
  • York and Leeds will be fully electrified or trains could be fitted with batteries to bridge the thirteen mile gap in the electrification.

A limited-stop service between London Kings Cross and Edinburgh via Leeds could be an interesting addition.

  • The train would only stop at Leeds and possibly Newcastle.
  • One objective would be a time under three-and-a-half hours between London Kings Cross and Edinburgh.
  • What time could be achieved between London Kings Cross and Leeds?

It would certainly give High Speed Two a run for its money!

A New Elizabethan

I can remember The Elizabethan, which was a steam-hauled non-stop express between London and Edinburgh between 1953 and 1961.

I have laid out my ideas for a modern express train of the same name in A New Elizabethan.

It could be an interesting concept, to increase capacity between London and Edinburgh.

As I indicated in the previous section, LNER certainly have a path, that could be used to their advantage.

High Speed Two

The East Coast Main Line and High Speed Two have a lot in common.

  • The two routes will share tracks between a junction near Ulleskelf station and Newcastle station.
  • High Speed Two Classic Compatible trains could be based on Hitachi AT-300 train technology.
  • High Speed Two Classic Compatible trains would probably be able to run on the East Coast Main Line between London Kings Cross And Edinburgh.
  • Trains from both routes will share platforms at York, Darlington, Durham and Newcastle stations.
  • I would hope that the signalling systems on both routes are compatible.

From a project management point of view, this commonality means that in an ideal world the new route of both High Speed Two and Northern Powerhouse Rail, and the upgrades to the East Coast Main Line should be planned together.

I believe there are still details on the design of the joint route, that have not been disclosed, or perhaps not even decided.

  • Will between Church Fenton station and Neville Hill depot be electrified?
  • How will Northern Powerhouse Rail connect Leeds and Hull stations?
  • How will Northern Powerhouse Rail connect Leeds and York stations?
  • Will High Speed Two connect Leeds and York stations?
  • What will be the operating speed of the joint section of the East Coast Main Line?
  • What will be the capacity in trains per hour of the joint section of the East Coast Main Line?
  • Will Newcastle station need an extra platform to handle three High Speed Two tph from London Euston

Two projects have been discussed in this post.

  • The unlocking of the bottleneck at Skelton Bridge.
  • The reopening of the Leamside Line.

I feel that these projects are important and will probably be needed for efficient operation of High Speed Two.

Other early projects could include.

  • Upgrading and electrification of the chosen route between Leeds and Hull,
  • Installation of the chosen system of in-cab ERTMS digital signalling on the route.
  • Electrification between Church Fenton station and Neville Hill depot.

I would deliver these and other joint projects early, so that travellers see a positive benefit from High Speed Two before the main work has even started.

High Speed East Coast

I wonder what is the maximum speed of the Class 80x trains, that are the backbone of services on the East Coast Main Line.

Consider.

  • It is known, that with in-cab digital ERTMS  signalling, these trains will be capable of 140 mph, but could they go even faster.
  • High Speed Two Classic Compatible trains will be capable of 225 mph.
  • Will Hitachi’s offering for these trains, be based on the Class 80x trains?

I would think, that it is fairly likely, that the existing Class 80x trains could be updated to an operating speed in the range of 150-160 mph.

In Thoughts On Digital Signalling On The East Coast Main Line, I said this.

The combined affect of both track and signalling improvements is illustrated by this simple calculation.

    • As Dalton-on-Tees is North of Doncaster, the route between Woolmer Green and Doncaster should be possible to be run at 140 mph
    • Woolmer Green and Doncaster stations are 132.1 miles apart.
    • Non-stop York and London Kings Cross trains are currently timed at 70 minutes between Doncaster and Woolmer Green stations.
    • This is an average speed of 113.2 mph.

If 140 mph could be maintained between Doncaster and Woolmer Green, the section of the journey would take 56.6 minutes, which is a saving of 13.4 minutes.

I can do this calculation for higher speeds.

  • 150 mph would take 52.8 minutes
  • 160 mph would take 49.5 minutes
  • 170 mph would take 46.6 minutes
  • 180 mph would take 44 minutes
  • 200 mph would take 39.6 minutes

Note.

  1. Eurostar’s latest Class 374 trains are capable of operating at 200 mph.
  2. A Class 395 train, which is closely related to the Class 80x trains, has attained a record speed of 157 mph.

There may be worthwhile time savings to be made, on some of the straighter sections of the East Coast Main Line.

Other improvements will also be needed.

Note, that I am assuming, that the Digswell Viaduct section would not be updated, as it would cause too much disruption.

I also believe that by using selective joining and splitting at Edinburgh, Leeds and perhaps Doncaster, Grantham, Newark or York, that a very comprehensive network of direct trains to and from London can be built from Grantham Northwards.

Beverley, Bradford, Cleethorpes, Glasgow, Grimsby, Harrogate, Huddersfield, Hull, Lincoln, Middlesbrough, Nottingham, Perth, Redcar, Sheffield, Skipton, Sunderland and Washington could all be served at an appropriate frequency.

  • Some like Bradford, Glasgow, Harrogate, Hull, Lincoln and Middlesbrough would have several trains per day.
  • Others might have a much more limited service.

What sort of timings will be possible.

  • London Kings Cross and Doncaster could be around an hour.
  • London Kings Cross and Leeds could be around one hour and thirty minutes, using the current Doncaster and Leeds time, as against the one hour and twenty-one minutes for High Speed Two.
  • London Kings Cross and York could be around one hour and twenty-three minutes, using the current Doncaster and York time, as against the one hour and twenty-four minutes for High Speed Two.
  • Timings between York and Newcastle would be the same fifty-two minutes as High Speed Two, as the track will be the limitation for both services.
  • High Speed Two’s timing for York and Newcastle is given as fifty-two minutes, with York and Darlington as twenty-five minutes.
  • London Kings Cross and Darlington could be around one hour and forty-nine minutes
  • London Kings Cross and Newcastle could be around two hours and sixteen minutes.
  • London Kings Cross and Edinburgh would be under three-and-a-half hours, as against the proposed three hours and forty-eight minutes for High Speed Two.

High Speed East Coast would be a serious and viable alternative to High Speed Two for the Eastern side of England and Scotland.

Conclusion

This is an important joint project for Northern Powerhouse Rail, High Speed Two and the East Coast Main Line.

Project Management Recommendations

This project divides neatly into several smaller projects..

  • Upgrade the power supply on the East Coast Main Line.
  • Finish the York to Church Fenton Improvement Scheme
  • Remodel Darlington station.
  • Install of in-cab ERTMS digital signalling.
  • Complete the electrification between Neville Hill TMD and York.
  • Solve the problem of Skelton Bridge and its complicated track layout.
  • Reopen the Leamside Line.

Most of these projects are independent of each other and all would give early benefits to the East Coast Main Line.

When complete, we’ll see the following timing improvements.

  • Leeds and Newcastle will drop from 85 minutes to 56 minutes, with an increase in frequency from three to four tph.
  • York and Newcastle will drop from 57-66 minutes to 52 minutes.
  • There could be ten minutes savings on Edinburgh services.

Passengers and operators would welcome this group of projects being started early.

 

 

 

 

November 30, 2020 Posted by | Transport | , , , , , , , , , , , , , , , , , , , , , , , , | 3 Comments

LNER Seeks 10 More Bi-Modes

The title of this post, is the same as that of an article in the December 2020 Edition of Modern Railways.

This is the opening paragraph.

LNER has launched the procurement of at least 10 new trains to supplement its Azuma fleet on East Coast Main Line services.

Some other points from the article.

  • It appears that LNER would like to eliminate diesel traction if possible.
  • On-board energy storage is mentioned.
  • No form of power appears to be ruled out, including hydrogen.
  • LNER have all 65 of their Azumas in service.

The last paragraph is very informative.

Infrastructure upgrades are due to prompt a timetable recast in May 2022 (delayed from December 2021) from which point LNER will operate 6.5 trains per hour, out of Kings Cross, compared to five today. As an interim measure, LNER is retaining seven rakes of Mk 4 coaches hauled by 12 Class 91 locomotives to supplement the Azuma fleet and support its timetable ambitions until the new trains are delivered.

These are my thoughts.

More Azumas?

Surely, It would require a very innovative train at perhaps a rock-bottom price from another manufacturer, for LNER to not acquire extra Azumas.

Classic-Compatible Trains For High Speed Two

Consider.

  • Alstom, Bombardier, CAF, Hitachi, Siemens and Talgo are involved in the competition to design Classic-Compatible trains for High Speed Two.
  • As the York and Edinburgh section of the East Coast Main Line will eventually be upgraded and used by High Speed Two services,
  • Also in the December 2020 Edition of Modern Railways, is an article entitled 140 mph Plan For ECML North of York, which details improvements proposed by Northern Powerhouse Rail to improve services between Leeds and Edinburgh.

Would there be advantages to High Speed Two, LNER and Network Rail and Northern Powerhouse Rail, to have some commonality between the  High Speed Two, LNER and Northern Powerhouse Rail fleets?

Hopefully, the various government-controlled companies are talking.

A Flagship Train For Aberdeen And Inverness

The InterCity 225s, which consist of a Class 91 locomotive and a rake of nine Mark 4 coaches, have given thirty years of top-quality service on the East Coast Main Line and appear to be being asked to handle services until the new trains are delivered.

  • Full-length InterCity 225s are 245 metres long and have 406 Standard and 129 First seats or a total of 535 seats.
  • Nine-car Azumas are 234 metres long and have 510 Standard and 101 First seats or a total of 611 seats.
  • Two five-car Azumas working as a pair are 260 metres long and have 604 seats. They can also be handled on most platforms, that are used by LNER.
  • The power of a Class 91 locomotive is 4.83 MW.
  • A Class 91 locomotive is 19.4 metres long and weighs 81.5 tonnes.
  • Both Azumas and InterCity 225s can maintain 125 mph with ease on the East Coast Main Line and both will be able to reach 140 mph with in-cab signalling.

There would appear to be nothing wrong with locomotive-hauled high speed services, in terms of capacity and performance.

In The Mathematics Of A Hydrogen-Powered Freight Locomotive, I laid out my thoughts on a high-powered railway locomotive fuelled by hydrogen, that used one or possibly two Rolls-Royce gas-turbine engines to generate electricity for traction.

With all the work done, by the companies bidding for Classic-Compatible trains for High Speed Two, into very high speed trains, I believe that at least one company could build a locomotive with this specification.

  • 140 mph operation on 25 KVAC overhead electrification. As I said, that was done by British Rail almost forty years ago.
  • Ability to use full digital in-cab signalling. This is on its way and already working in some applications.
  • 110 mph operation on hydrogen. Hitachi are planning 100 mph battery trains, so it should be possible.
  • 400 mile range on one filling of hydrogen. This is working in Germany.
  • Ability to be upgraded to higher speeds on electric power, should the East Coast Main Line be upgraded for higher speeds in the future. The train manufacturers are probably ahead of track designers with this one.

Such a locomotive would be key to building a train with this specification.

  • Sub-four hour time between London and Edinburgh.
  • Sub-seven hour time between London and Aberdeen, which has 130 miles without wires.
  • Sub-eight hour time between London and Inverness, which has 146 miles without wires.
  • Hydrogen would be used, where there is no electrification.
  • Zero-carbon at all times.
  • A maximum length of 260 metres, which I estimate could give a passenger capacity of around 640 seats.
  • The last coach would include a driving van trailer.
  • They would not need the ability to split and join, except for the purpose of rescue, as there is no platform on the route, that could accommodate the resulting 520 metre long pair of trains.

I estimate that a fleet of around seven trains would be needed to run the current Aberdeen and Inverness services.

A few extra thoughts.

  • Could they have an up-market more spacious interior, as their main competition to the North of Scotland, would be the budget airlines?
  • Could they be slightly longer, with some platform work at Kings Cross and other stations?
  • Add a few extra trains to the order, so that extra services between London and Edinburgh could be added to the timetable.
  • Could the driving van trailer incorporate an observation car?
  • Hydrogen refuelling shouldn’t be a problem in Scotland, as the country is developing a hydrogen economy.
  • Hydrogen refuelling wouldn’t be needed in England, as they’d be using the electrification.
  • As an alternative to hydrogen, sustainable aviation fuel could be used.

I suspect that Talgo, would be very happy to tender.

  • They are developing hydrogen-powered trains as I wrote in Talgo: Our Hydrogen Train Will Be Ready In 2023.
  • They are building a factory in Scotland, close to the Forth Bridge.
  • Because of the factory, Talgo probably have the ear of the Scottish Government, who would probably welcome a Scottish-built train.
  • A shorter version of these trains without the hydrogen, could be the design for a High Speed Two Classic-Compatible train, for which Talgo, are on the short list of suppliers.

What better way, would there be to sell your hydrogen-powered high speed trains, than to give prospective clients a ride up from London to the factory in the luxury version?

A New Elizabethan

I can remember The Elizabethan, which was a steam-hauled non-stop express between London and Edinburgh between 1953 and 1961.

I have laid out my ideas for a modern express train of the same name in A New Elizabethan.

It could be an interesting concept, to increase capacity between London and Edinburgh.

Splitting And Joining

Some of LNER’s philosophy to serve places like Harrogate, Huddersfield and Middlesbrough, depends on the ability to split and join trains.

A pair of Azumas could leave London and go to Leeds, where they would split, with one train going to Harrogate and the other going to Huddersfield.

When returning to London, the two trains would join at Leeds.

The big advantage of splitting and joining, is that it increases the capacity on the main line, as services can be arranged, so that every path always carries a full-length train. I would expect that LNER would prefer never to run a single five-car Azuma into Kings Cross.

Currently LNER have these paths to and from Kings Cross.

  • 2 tph between London Kings Cross and Leeds
  • 1 tph between London Kings Cross and Lincoln and East Yorkshire
  • 2 tph between London Kings Cross and Edinburgh

Note.

  1. LNER have already started to extend services from Leeds, so will we see splitting and joining being used on one tph at Leeds to provide services to several destinations, throughout the day.
  2. Splitting and joining at Edinburgh is surely another possibility, to serve Stirling and Glasgow, with the same train.
  3. Splitting and joining at York could serve destinations like Middlesbrough, Newcastle, Redcar, Scarborough and Sunderland.
  4. In A Trip To Grantham Station – 4th November 2020, I advocated splitting at Grantham station to serve both Nottingham and Lincoln.

There are a lot of possibilities for splitting and joining.

As LNER has a fleet of twenty-two five-car Azumas, if the new trains are needed to split and join on certain services, this might mean more five-car Azumas are a better buy.

What Will Happen To Nine Car Azumas?

Hitachi have launched the Regional Battery Train concept, the specification of which is given in this Hitachi infographic.

The diesel engines in LNER’s Class 800 trains will be able to be replaced with batteries, making them all-electric trains.

  • Destinations like Cleethorpes, Dundee, Grimsby, Harrogate, Huddersfield, Hull, Lincoln, Middlesbrough Nottingham, Perth, Redcar, Scarborough, Sheffield and Sunderland will be within range of battery electric Azumas.
  • Some destinations would need the ability to charge the train before it returned, but I can see lots of places getting an appropriate service, even if it was just one or two trains per day.
  • Unfortunately, Aberdeen and Inverness would be too far for battery electric Azumas, so services will still need to be run by nine-car bi-mode Azumas.

Five-car battery electric Azumas working in pairs from London could be the key to increasing LNER services.

I can see that LNER may end up with too many nine-car Azumas, if nine-car trains are replaced by pairs of five-car trains to serve two destinations by splitting and joining.

Would it be possible to shorten nine-car Azumas to five-car trains?

These are the formations of the two trains.

  • nine-car: DPTS-MS-MS-TS-MS-TS-MC-MF-DPTF
  • five-car: DPTS-MS-MS-MC-DPTF

It is known, that the trains have a computer, that does a quick check on start-up to determine, what cars are present and correct in the train.

  • This means that if LNER needed twelve-car trains for say London and Edinburgh, they could create a sub-fleet by just buying the requisite number of extra TS (Trailer Standard) and MS (Motor Standard) cars and coupling them up.
  • This feature also means that operators running fleets of five-car Hitachi trains, like TransPennine Express and Hull Trains can increase capacity by just purchasing the extra cars.
  • It would also allow, cars to be shuffled to create viable trains, after say several cars were damaged by vandalism.

All trains these days seem to have this very operator-friendly feature.

With LNER’s trains, I suspect that all cars of the same type are identical.

This would mean, that a nine-car train can be converted to a five-car by removing two TS (Trailer Standard), one MS (Motor Standard) and one MF (Motor First) cars.

The four cars, that have been removed could be reconfigured to form the middle three cars of a new five-car train, which would be completed by adding new DPTS (Driver Pantograph Trailer Standard) and DPTF (Driver Pantograph Trailer First) cars.

An Increase In Paths From 5 To 6.5

This will certainly allow LNER to run more services.

The odd half path could be easy to explain.

  • Hull is a city, that is on the up.
  • I suspect that it could support a five-car direct service from London with a frequency of one tph.
  • But Hull Trains are also running a successful service on the route.

Perhaps a fair solution, would be to allow both LNER and Hull Trains to run a one train per two hour (tp2h) service.

If LNER didn’t want to use the path to just run a five-car train to Hull, there are several possibilities for a split and join.

  • With a Cleethorpes, Lincoln or Nottingham service at Grantham.
  • With a Cleethorpes or Lincoln service at Newark.
  • With a Cleethorpes, Middlesbrough, Sheffield or Sunderland service at Doncaster.

I can only see splitting and joining increasing, which surely means an Azuma order is more likely.

As someone, who spent a working life, writing software to schedule projects, I can’t resist speculating on what to do with the extra whole path, that LNER will be allocated, when the infrastructure allows.

  • Many travellers wouldn’t mind LNER providing more seats between the English and Scottish capitals.
  • Many would like an alternative to flying.
  • Others would like a faster service.
  • Leeds and York will soon be a route, that LNER’s Azumas will be able to use without diesel, because of extra electrification and Azumas with traction batteries.

This leads me to believe that LNER could use the extra path for a third London and Edinburgh service in every hour, that ran via Leeds.

  • Additionally, it might stop at stations like Peterborough, York, Darlington or Newcastle.
  • It could also provide a non-stop London and Leeds service.
  • Some services could go non-stop between London and Edinburgh.
  • The direct London and Edinburgh service would be under four hours.
  • Going via Leeds would add under an hour.

It would be run by a nine-car all-electric Azumas, of which there will be unlikely to be a shortage.

How Many Azumas Could Be Fitted With Batteries Instead Of Diesel Engines?

The Wikipedia entry for the Class 800 train, has a section called Powertrain, where this is said.

Despite being underfloor, the generator units (GU) have diesel engines of V12 formation. The Class 801 has one GU for a five to nine-car set. These provide emergency power for limited traction and auxiliaries if the power supply from the overhead line fails. The Class 800 and Class 802 bi-mode has three GU per five-car set and five GU per nine-car set. A five-car set has a GU situated under vehicles 2/3/4 and a nine-car set has a GU situated under vehicles 2/3/5/7/8.

Consider.

  • Class 807 trains for Aventi West Coast will have no batteries or diesel engines. Does this save weight?
  • Class 803 trains for East Coast Trains will only have a small battery for emergency hotel power, in case of catenary failure. Does this save weight?
  • Saving weight should improve acceleration and deceleration, which could reduce journey times.
  • Removal of diesel engines would reduce the trains carbon footprint.
  • Removal of diesel engines could reduce maintenance costs.
  • Diesel engines are only needed for services that run North of Edinburgh. Other sections without electrification are probably within battery range or could be easily made so.
  • It appears every Motor car (MC, MF and MS) can be fitted with a diesel engine, although in Class 801 trains, only one is fitted. Does that mean that every Motor car in the future, could have a battery?

I think this could lead to the following.

  • The Class 801 trains are fitted with sufficient batteries to enable handling of expected emergencies. These could be similar to those in the Class 803 trains.
  • Enough nine-car Class 800 trains would be kept with diesel engines to work the Aberdeen and Inverness services. These routes at 130 and 146 miles without wires are too long for battery trains, without a succession of chargers along the routes.
  • If a third Edinburgh service were to be introduced, could some of the remainder of the nine-car Class 800 trains be converted to Class 801 trains, by removing the diesel engines?
  • I would expect most of the five-car thirty-six Class 800 trains would be fitted with batteries to run services to destinations, that can be reached on battery power. In a few years time, these will probably mean splitting and joining at Edinburgh, Leeds and other places.
  • Could we even see the twelve five-car Class 801 trains converted to battery electric Class 800 trains, which would surely give maximum flexibility about their use?

If the software on the trains, is as intelligent as it could be and can accept cars with diesel engines, batteries or no extra power, then LNER will have an enormous amount of flexibility, to configure the trains as they need.

I could even see a nine-car Class 800 train with a mix of batteries and diesel engines, that can be used as range extenders, reaching further towards Aberdeen and Inverness.

Consider a five-car Class 800 train with two batteries and a single diesel engine!

  • If I assume that Hitachi’s specification for the Regional Battery Train, is for a five-car train with three diesel engines replaced with battery packs, then a two battery pack train could have a range of 60 km or 37 miles.
  • If the route wasn’t very challenging, and the computer made judicious use of the diesel engine, could the train’s range be extended to beyond the ninety kilometres of the three-battery pack train.
  • The diesel engine could also be used to charge the batteries, before returning to the electrification of the main line.

In Vivarail’s Plans For Zero-Emission Trains, I talked about Adrian Shooter and his concept of a Pop-Up Metro, run for perhaps a year, to test if a Metro service would be viable, instead of spending the money on consultants.

The two-battery pack/one diesel Class 800 train, could run a Pop-Up London Service to test the need for a London service. All it would need is a convenient platform long enough to take a 130 metre long Class 800 train.

Possible destinations to test could include Cleethorpes, Dundee, Glenrothes-with-Thornton, Grimsby, Nottingham, Norwich, Perth, Redcar, Sheffield and Sunderland

Conclusion

There is a lot of scope to develop LNER’s services.

I think it is likely that the order will go to Hitachi.

But as I indicated, I do believe that there is scope for a manufacturer to design a zero-carbon train, that was able to serve the Aberdeen and Inverness.

  • I suspect a fleet of ten trains would be sufficient.
  • Trains would use the 25 KVAC overhead electrification, where it exists and hydrogen or battery power North of the wires.

The trains would also be capable of being upgraded to high speeds, should the East Coast Main Line be turned into a High Speed Line.

I also think, that whatever trains are bought, there will be a large upgrading of the existing Hitachi fleet, which will add batteries to a lot of trains.

November 25, 2020 Posted by | Hydrogen, Transport | , , , , , , , , , , , , , , , , , | 9 Comments